Optimization of Tumor Disease Monitoring in Medical Big Data Environment Based on High-Order Simulated Annealing Neural Network Algorithm

• Published in: Computational intelligence and neuroscience Vol. 2021; no. 1; p. 8996673
• Main Authors: Zhang, Lei, Zhong, Qixiang, Yu, Zhenglun
• Format: Journal Article
• Language: English
• Published: United States Hindawi 2021; John Wiley & Sons, Inc
• Subjects: Algorithms; Big Data; Biopsy; Brain cancer; Care and treatment; Chronic illnesses; Cluster Analysis; Clustering; Computer simulation; Data mining; Diabetes mellitus; Diagnosis; Digital signal processors; Disease; Fault diagnosis; Genetic algorithms; Health services; Humans; Information systems; Medical imaging equipment; Medical prognosis; Medical treatment; Modules; Monitoring; Monitoring systems; Neoplasms - diagnosis; Neural networks; Neural Networks, Computer; Optimization; Simulated annealing; Telemedicine; Tumors
• ISSN: 1687-5265; 1687-5273; 1687-5273
• DOI: 10.1155/2021/8996673

With the development of medical informatization, the data related to medical field are growing at an amazing speed, and medical big data appears. The mining and analysis of these data plays an important role in the prediction, monitoring, diagnosis, and treatment of tumor diseases. Therefore, this paper proposes a clustering algorithm of the high-order simulated annealing neural network algorithm and uses this algorithm to extract tumor disease-related big data, constructs training set according to the relevant information mined, designs a kind of dimension reduction model, aiming at the problem of excessive and wrong diagnosis and treatment in the diagnosis and treatment module of tumor disease monitoring mode, and establishes the corresponding control mechanism, so as to optimize the tumor disease monitoring mode. The results show that the clustering accuracy of the high-order simulated annealing neural network algorithm on different data sets (iris, wine, and Pima India diabetes) is 97.33%, 82.11%, and 70.56% and the execution time is 0.75 s, 0.562 s, and 1.092 s, which are better than those of the fast k-medoids algorithm and improved k-medoids clustering algorithm. To sum up, the high-order simulated annealing neural network algorithm can achieve good clustering effect in medical big data mining. The establishment of model M1 can reduce the probability of excessive and wrong medical treatment and improve the effectiveness of diagnosis and treatment module monitoring in tumor disease monitoring mode.